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    • 41. 发明专利
    • Thermostatic and humidistatic device
    • 温湿度和湿度设备
    • JP2008203210A
    • 2008-09-04
    • JP2007042631
    • 2007-02-22
    • Espec Corpエスペック株式会社
    • SAKANE HIROKITANAKA HIROKAZUHIRATA TAKUYASAKAMI SHINICHIRO
    • G01N17/00F28D15/02
    • PROBLEM TO BE SOLVED: To provide a thermostatic and humidistatic device capable of forming air having a temperature lower than the temperature of the open air.
      SOLUTION: A cooling unit 1 is constituted of the endothermic part 3 arranged at one end part of a heat pipe 2, a second radiation part 6, which is constituted using a Peltier element 8, arranged at the other end part of the heat pipe 2, and the first radiation part 5 having fins 7a arranged at the intermediate position between the second radiation part 6 and the endothermic part 3. This cooling unit 1 is pierced through a heat insulating wall 21 and a partition wall 17 and the endothermic part 3 is arranged at a proper place between the heater 15 and humidifier 16 in an air conditioning chamber S1. The first radiation part 5 is arranged in a first heat source adjusting chamber S2, and the second radiation part 6 in a second heat source adjusting chamber S3.
      COPYRIGHT: (C)2008,JPO&INPIT
    • 要解决的问题:提供能够形成温度低于露天温度的空气的恒温恒湿装置。 解决方案:冷却单元1由布置在热管2的一个端部的吸热部3构成,第二辐射部6由珀耳帖元件8构成,该第二辐射部6布置在热管2的另一端部 热管2,第一辐射部5具有布置在第二辐射部6和吸热部3之间的中间位置的翅片7a。该冷却单元1穿过绝热壁21和分隔壁17以及吸热 部分3设置在空调室S1中的加热器15和加湿器16之间的适当位置。 第一辐射部5布置在第一热源调节室S2中,第二辐射部6布置在第二热源调节室S3中。 版权所有(C)2008,JPO&INPIT
    • 43. 发明专利
    • Environmental test device
    • 环境测试设备
    • JP2008164424A
    • 2008-07-17
    • JP2006354048
    • 2006-12-28
    • Espec Corpエスペック株式会社
    • SHIMADA TETSUYATANAKA HIROKAZU
    • G01N17/00G01R29/10
    • PROBLEM TO BE SOLVED: To perform various environmental tests without having to replace an environmental test device as a whole.
      SOLUTION: This environmental test device 100 comprises a case body 12, having a gas-adjusting chamber 25 storing a temperature/humidity-regulating means, and a cover 15, constituting a laboratory 14 for storing a body to be tested 9 adjacent to the gas-adjusting chamber 25. The case body 12 is provided with through holes 51 and 52, through which the gas adjustment chamber 25 communicates with the laboratory 14. The cover 15 can be removed from the case body 12.
      COPYRIGHT: (C)2008,JPO&INPIT
    • 要解决的问题:为了进行各种环境试验而不必更换整个环境试验装置。 解决方案:该环境测试装置100包括壳体12,其具有存储温度/湿度调节装置的气体调节室25和盖15,盖子15构成相邻的待测试体9的储存体9的实验室14 壳体12设置有通孔51和52,气体调节室25通过该通孔51和52与实验室14连通。盖15可以从壳体12移除。版权所有 (C)2008,JPO&INPIT
    • 44. 发明专利
    • Heat treatment device
    • 热处理装置
    • JP2008070017A
    • 2008-03-27
    • JP2006247621
    • 2006-09-13
    • Espec Corpエスペック株式会社
    • NAGANO YUKIO
    • F27B5/16F27B5/18F27D7/04F27D7/06F27D19/00
    • PROBLEM TO BE SOLVED: To provide a heat treatment device capable of reducing power consumption of the heat treatment device as a whole.
      SOLUTION: This heat treatment device 1A comprising a heat treatment means 3 performing heat treatment on a treated object W to be treated received in a heat treatment portion 21 by heating the air in the heat treatment portion 21 while circulating it, and a ventilating means 4 for heating and distributing the outside air into the heat treatment portion 21, and discharging the air in the heat treatment portion 21 to ventilate the heat treatment portion 21, is further provided with a ventilation adjusting means for reducing the ventilation air volume by the ventilating means 4 to be less than that when the object W is heat-treated by the heat treatment means 3, when the object W is not heat-treated by the heat treatment means 3.
      COPYRIGHT: (C)2008,JPO&INPIT
    • 要解决的问题:提供一种整体上能够降低热处理装置的功耗的热处理装置。 解决方案:该热处理装置1A包括对处理对象物W进行热处理的热处理装置3,该加热处理装置3在热处理部分21中进行热处理,通过加热热处理部分21中的空气同时循环, 用于将外部空气加热并分配到热处理部分21中的通风装置4以及排出热处理部分21中的空气以使热处理部分21通风的通风装置4还设置有通风调节装置,用于通过 通气装置4比待热处理装置3对物体W进行热处理时要少。当对象W不被热处理装置3进行热处理时,通风装置4将小于(C)2008, JPO&INPIT
    • 45. 发明专利
    • Heat treatment device
    • 热处理装置
    • JP2008032274A
    • 2008-02-14
    • JP2006204100
    • 2006-07-27
    • Espec Corpエスペック株式会社
    • KANDA TOSHIROSAKONAKA KAZUHIROMURAKAMI HIDENORI
    • F27B17/00F27D1/04F27D1/08
    • PROBLEM TO BE SOLVED: To provide a heat treatment device capable of inhibiting leakage of hot air from a heat treatment space inside of a heat treatment tank while reducing work loads in carrying and installing the heat treatment tank. SOLUTION: In the heat treatment device 1, the heat treatment tank 4 having an outer wall and an inner wall forming the rectangular parallelopiped heat treatment space inside of the outer wall, is formed by combining plural hollow wall panels 42, each wall panel 42 has a part corresponding to an angular portion of the heat treatment space, and is joined to the other wall panel 42 at a position shifted from the angular portion of the heat treatment space. COPYRIGHT: (C)2008,JPO&INPIT
    • 解决的问题:提供一种能够抑制热空气从热处理槽内部的热处理空间泄漏的热处理装置,同时减少承载和安装热处理槽的工作负荷。 解决方案:在热处理装置1中,通过组合多个中空壁板42而形成具有形成外壁的长方体形状的热处理空间的外壁和内壁的热处理槽4,每个壁 面板42具有对应于热处理空间的角部的部分,并且在从热处理空间的角部偏移的位置处接合到另一壁板42。 版权所有(C)2008,JPO&INPIT
    • 46. 发明专利
    • Humidity control method and environmental test device
    • 湿度控制方法和环境测试装置
    • JP2007322356A
    • 2007-12-13
    • JP2006155851
    • 2006-06-05
    • Chiyoda Denki Kogyo KkEspec Corpエスペック株式会社千代田電機工業株式会社
    • TOI KEIKOYAMAUCHI MASAYUKI
    • G01N17/00
    • PROBLEM TO BE SOLVED: To provide a constitution capable of correctly controlling humidity, even when additive gas is introduced into the testing chamber for the environmental test device. SOLUTION: The device is equipped with a pressure vessel (test chamber) 2, which stores humidifying water 4 and also is capable of having a test sample 8 to be installed therein, and the inside of the pressure vessel 2 is constituted to have an additive gas to be introduced. In the pressure vessel 2 the temperature of the humidifying water sensor 19 and wick temperature sensor 20 are provided. The additive gas is introduced into the pressure vessel 2, when the internal temperature and the humidity of the pressure vessel 2 are stable at the temperature of 100°C or higher; the correction amount is calculated from the relation between the detection temperatures of the humidifying water temperature sensor 19 and the wick temperature sensor 20. Thereafter, the detected value of the wick temperature sensor 20 is corrected based on the correction amount, and the humidity of the pressure vessel 2 is controlled, based on the value after correction. COPYRIGHT: (C)2008,JPO&INPIT
    • 要解决的问题:即使当添加气体被引入到用于环境测试装置的测试室中时,提供能够正确地控制湿度的结构。

      解决方案:该装置配备有压力容器(试验室)2,其存储加湿水4,并且还能够安装测试样品8,并且将压力容器2的内部构成为 具有待引入的添加气体。 在压力容器2中设置加湿水传感器19和芯温度传感器20的温度。 当压力容器2的内部温度和湿度在100℃或更高的温度下稳定时,将添加气体引入压力容器2中; 根据加湿水温度传感器19的检测温度与芯温度传感器20之间的关系来计算校正量。此后,基于校正量和温度传感器20的湿度来校正芯温度传感器20的检测值 基于校正后的值控制压力容器2。 版权所有(C)2008,JPO&INPIT

    • 47. 发明专利
    • Back-pressure governor
    • 背压总督
    • JP2007280867A
    • 2007-10-25
    • JP2006108355
    • 2006-04-11
    • Espec Corpエスペック株式会社
    • TANAKA HIDEKIYOSHIZUMI KIMIOANDO HITOSHIMIZUGAKI AKIRAUEDA AKIRA
    • H01M8/04
    • Y02E60/50
    • PROBLEM TO BE SOLVED: To provide a back-pressure governor capable of high precision back-pressure control in a wide range of flow volume. SOLUTION: This governor comprises a ball valve 30 capable of adjusting a valve opening degree and a dome load valve 22. The ball valve 30 and dome load valve 22 are positioned in parallel in a downstream side of a fuel cell 12 in a pipe 20. In addition, it comprises a valve control 32 to control a ball valve 30 based on a supply flow rate set for the fuel cell 12. The supply flow rate for the fuel cell 12 is regulated by a volume flow of dry gas to be supplied from a mass flow controller 24, a dew point of gas to be supplied to the fuel cell 12 and a setting pressure for the dome load valve 22. COPYRIGHT: (C)2008,JPO&INPIT
    • 要解决的问题:提供能够在宽范围的流量中进行高精度背压控制的背压调节器。 解决方案:该调速器包括能够调节阀开度的球阀30和圆顶负载阀22.球阀30和圆顶负载阀22平行地位于燃料电池12的下游侧, 另外,它还包括阀控制器32,以根据为燃料电池12设定的供给流量控制球阀30.燃料电池12的供给流量由干燥气体的体积流量调节到 由质量流量控制器24供给,供给到燃料电池12的气体的露点和圆顶负载阀22的设定压力。(C)2008,JPO&INPIT
    • 48. 发明专利
    • Heating/cooling testing device
    • 加热/冷却测试设备
    • JP2007263782A
    • 2007-10-11
    • JP2006089931
    • 2006-03-29
    • Espec Corpエスペック株式会社
    • SHIMADA TETSUYATANAKA HIROKAZU
    • G01N3/32G01N3/60
    • PROBLEM TO BE SOLVED: To provide a heating/cooling testing device, capable of performing simultaneously heating/cooling tests having different conditions with respect to each of two kinds of connected samples.
      SOLUTION: The first test space 10 is defined by the first container 10a. The second container 20a is arranged inside the first container 10a, and the second test space 20 is a space inside the second container 20a. An electronic substrate 100 which is a sample is formed, by mounting an electronic component 120 on a substrate 110, and the substrate 110 is arranged inside the first test space 10, and the electronic component 120 is arranged inside the second test space 20. A control part 32 controls the first heating part 12, a cooling part 14 and the second heating part 32 so that each temperature of the first test space 10 and the second test space 20 becomes test temperature stored in a storage part 31, based on each output signal from the first temperature sensor 15 in the first test space 10 and the second temperature sensor 25 in the second test space 20.
      COPYRIGHT: (C)2008,JPO&INPIT
    • 要解决的问题:提供一种能够对两种连接的样品中的每一种进行同时进行不同条件的加热/冷却测试的加热/冷却测试装置。 解决方案:第一测试空间10由第一容器10a限定。 第二容器20a布置在第一容器10a的内部,第二测试空间20是第二容器20a内的空间。 通过将电子部件120安装在基板110上而形成作为样品的电子基板100,将基板110配置在第一测试空间10的内部,电子部件120配置在第二测试空间20的内部。 控制部32基于每个输出控制第一加热部12,冷却部14和第二加热部32,使得第一测试空间10和第二测试空间20的每个温度成为存储在存储部31中的测试温度 来自第一测试空间10中的第一温度传感器15和第二测试空间20中的第二温度传感器25的信号。(C)2008,JPO和INPIT
    • 49. 发明专利
    • Method and device for evaluating thermal fatigue
    • 用于评估热疲劳的方法和装置
    • JP2007183126A
    • 2007-07-19
    • JP2006000482
    • 2006-01-05
    • Espec Corpエスペック株式会社
    • SAKANE HIROKIIMAI SHINGOTANAKA HIROKAZU
    • G01N3/32G01N17/00
    • PROBLEM TO BE SOLVED: To provide a method and device optimum for evaluating thermal fatigue due to a thermal stress and creep deformation caused by an atmospheric temperature in a sample exposed thereto and a difference between thermal expansion coefficients in the sample.
      SOLUTION: The device 1 has a temperature regulation part 3, and regulates the atmospheric temperature in the sample W exposed thereto and a temperature of the sample itself, i.e. testing environment temperatures, by feeding air temperature-regulated in the temperature regulation part 3 into a testing chamber 2. The device 1 sets a temperature change rate when changing the testing environment temperature between a low-temperature set temperature and a high-temperature set temperature, and changes the testing environment temperature as set.
      COPYRIGHT: (C)2007,JPO&INPIT
    • 要解决的问题:提供一种最佳的方法和装置,用于评估由暴露于其中的样品中的大气温度引起的热应力和蠕变变形以及样品中的热膨胀系数之间的热疲劳。 解决方案:装置1具有温度调节部分3,并且通过将在温度调节部件中温度调节的空气送入,调节暴露在其中的样品W中的气氛温度和样品本身的温度,即测试环境温度 3进入测试室2.装置1在将测试环境温度改变为低温设定温度和高温设定温度时设定温度变化率,并且根据设定改变测试环境温度。 版权所有(C)2007,JPO&INPIT
    • 50. 发明专利
    • Vehicle test device
    • 车辆测试装置
    • JP2007108038A
    • 2007-04-26
    • JP2005299829
    • 2005-10-14
    • Espec CorpToyota Motor Corpエスペック株式会社トヨタ自動車株式会社
    • WATABE KATSUHIKOFUNAHASHI YOICHISAGIYAMA TATSUYAIKEZAKI MAKOTOYOSHIDA TERUO
    • G01M17/007
    • PROBLEM TO BE SOLVED: To provide a vehicle test device capable of reproducing not only a situation during traveling but also a situation approximate to the actual condition of a heat-generating vehicle during a stop. SOLUTION: This vehicle test device 1 has: a test room 2 storing the vehicle 8; an air flow supply means supplying an air flow 29 toward the vehicle 8 inside the test room 2; and a vehicle traveling state reproduction means not substantially changing an installation position of the vehicle 8. A ceiling side of the test room 2 is formed with an opening of a temperature-rising air flow exhaust passage 7 communicating with the outside of the test room 2. The opening of the temperature-rising air flow exhaust passage 7 is formed in a position to which air heated by the vehicle 8 ascends and reaches such that the air heated by the heat-generating vehicle 8 assumed that it is during slow-speed traveling or during the stop is exhausted outside the test room 2 through the temperature-rising air flow exhaust passage 7. COPYRIGHT: (C)2007,JPO&INPIT
    • 要解决的问题:提供一种车辆测试装置,其能够不仅可以再现旅行中的情况,而且可以在停止期间再现与发热车辆的实际情况相近的情况。 解决方案:该车辆测试装置1具有:存储车辆8的测试室2; 向测试室2内的车辆8供给气流29的气流供给单元; 并且车辆行驶状态再现意味着实质上不改变车辆8的安装位置。测试室2的天花板侧形成有与测试室2的外部连通的升温气流排出通道7的开口 升温用气流排出通道7的开口形成在车辆8加热的空气上升到达的位置,使得由发热车辆8加热的空气假定为在慢速行驶中 或者在停止期间通过升温气流排气通道7在测试室2外部排出。(C)2007,JPO&INPIT